Modflow utilization for the Saharan aquifers management

1. Modflowutilization for the Saharanaquifers management M. Zammouri September 2013

2. Modfow is a modular finite difference groundwater model code developed by the US Geological Survey's (McDonald and Harbaugh, 1988) • Based on the Modflow code, several software (Visual Modflow; Processing Modflow, GMS etc.) were developed: • to make Modflow convivial • Integration of pre- and post-processing • Other codes were coupled to Modflow : MT3D for solute transport modeling, • PEST for optimization etc. • Development of groundwater flow : the North Western Sahara Aquifer System (SASS) • Development of transport model : Complexe Terminal in Fefzawa oases region (Tunisian South)

3. Système Aquifère du Sahara septentrional SASS (OSS, 2003) Groundwater resources of this basin are shared by three countries

5. Algeria Tunisia Libya Total Groundwaterwithdrawalsevolution In 2000 : 2.2 Billion m3/y CT : 1.3 Billion m3/y Algeria: 49% Tunisia: 34% Libya: 17% In 2000 : 0.9 Billion m3/y Algeria: 78% Tunisia: 10% Libya: 12%

6. Negative effects from groundwater mining are nowadays observed : • Strong drawdown reaching 100 m and 40 m in the CI and CT aquifers, respectively • Vanishing of the natural springs • Degradation of the C.T groundwaterquality A numerical groundwater flow model of the whole basin (SASS model) was developed to asses the impact of the long-term (2000-2050) application of existing and planned extraction projects on drawdown. The SASS modeling study is piloted by the “Observatoire du Sahara et du Sahel (OSS)” in 2003. Calibration for the 1950 - 2000 period was carried out in order to adjust geological and hydrological system parameters. Since the model calibration was considered satisfactory, the groundwater simulation model was extended to the year 2050 with various management alternatives modeled according to the planned extraction projects of Algeria, Libya and Tunisia

7. CI : 55 Potentialpumpingfields

8. CT : 33 potentialpumpingfields

10. Drawdowns in

12. Drawdowns in

13. In Tunisia, a rise in the groundwater salinity has been observed as consequence of increasing abstraction from the CT aquifer during the last few decades.

15. Distribution of TDS increase (mg/l) over the period1980 - 2000

16. Conceptualization of the three different salinization processes: • infiltration of brine from Chott • Upconing of water from the CI/Turonian aquifer • salinization by agricultural drainage water

17. A transport model was built by using the transport model MT3DMS. The aim was twofold: • to crossvalidate conceptualization by the comparison of the historical salinity development with that calculated. • to get an understanding of the future relevance of the three salinization mechanisms. The transport model was calibrated over the period 1950-2000. After calibration, The simulation of planned extraction projects predicts a worsening of the present situation. Maintenance of the present abstraction regime will not reduce or stop the salinity increase. Control measures to limit CT salinization would include the following. Planned extraction projects in the south of the Nefzawa region have to be revised. Increasing irrigation efficiency Implementation of effective drainage measures